/* eslint-env qunit */
import document from 'global/document';
import sinon from 'sinon';
import * as Dom from '../../../src/js/utils/dom.js';
import TestHelpers from '../test-helpers.js';
import * as browser from '../../../src/js/utils/browser.js';

QUnit.module('utils/dom');

QUnit.test('should create an element', function(assert) {
  const div = Dom.createEl();
  const span = Dom.createEl('span', {
    innerHTML: 'fdsa'
  }, {
    'data-test': 'asdf'
  });

  assert.strictEqual(div.nodeName, 'DIV');
  assert.strictEqual(span.nodeName, 'SPAN');
  assert.strictEqual(span.getAttribute('data-test'), 'asdf');
  assert.strictEqual(span.innerHTML, 'fdsa');
});

QUnit.test('should create an element, supporting textContent', function(assert) {
  const span = Dom.createEl('span', {textContent: 'howdy'});

  if (span.textContent) {
    assert.strictEqual(span.textContent, 'howdy', 'works in browsers that support textContent');
  } else {
    assert.strictEqual(span.innerText, 'howdy', 'works in browsers that DO NOT support textContent');
  }
});

QUnit.test('should create an element with tabIndex prop', function(assert) {
  const span = Dom.createEl('span', {tabIndex: '5'});

  assert.strictEqual(span.tabIndex, 5);
});

QUnit.test('should create an element with content', function(assert) {
  const span = Dom.createEl('span');
  const div = Dom.createEl('div', undefined, undefined, span);

  assert.strictEqual(div.firstChild, span);
});

QUnit.test('should be able to set standard props as attributes, and vice versa, on a created element', function(assert) {
  const span = Dom.createEl('span', {className: 'bar'}, {id: 'foo'});

  assert.strictEqual(span.getAttribute('class'), 'bar');
  assert.strictEqual(span.id, 'foo');
});

QUnit.test('should insert an element first in another', function(assert) {
  const el1 = document.createElement('div');
  const el2 = document.createElement('div');
  const parent = document.createElement('div');

  Dom.prependTo(el1, parent);
  assert.strictEqual(parent.firstChild, el1, 'inserts first into empty parent');

  Dom.prependTo(el2, parent);
  assert.strictEqual(parent.firstChild, el2, 'inserts first into parent with child');
});

QUnit.test('addClass()', function(assert) {
  const el = document.createElement('div');

  assert.expect(6);

  Dom.addClass(el, 'test-class');
  assert.strictEqual(el.className, 'test-class', 'adds a single class');

  Dom.addClass(el, 'test-class');
  assert.strictEqual(el.className, 'test-class', 'does not duplicate classes');

  Dom.addClass(el, 'test2_className');
  assert.strictEqual(el.className, 'test-class test2_className', 'adds second class');

  Dom.addClass(el, 'FOO');
  assert.strictEqual(el.className, 'test-class test2_className FOO', 'adds third class');

  Dom.addClass(el, 'left-class', 'right-class');
  assert.strictEqual(el.className, 'test-class test2_className FOO left-class right-class', 'adds two classes');

  Dom.addClass(el, 'l-class r-class');
  assert.strictEqual(
    el.className,
    'test-class test2_className FOO left-class right-class l-class r-class',
    'adds two classes via one string'
  );
});

QUnit.test('removeClass()', function(assert) {
  const el = document.createElement('div');

  el.className = 'test-class test2_className FOO bar';

  assert.expect(5);

  Dom.removeClass(el, 'test-class');
  assert.strictEqual(el.className, 'test2_className FOO bar', 'removes one class');

  Dom.removeClass(el, 'test2_className');
  assert.strictEqual(el.className, 'FOO bar', 'removes another class');

  Dom.removeClass(el, 'FOO');
  assert.strictEqual(el.className, 'bar', 'removes another class');

  el.className = 'bar left-class right-class';

  Dom.removeClass(el, 'left-class', 'right-class');
  assert.strictEqual(el.className, 'bar', 'removes two classes');

  el.className = 'bar l-class r-class';

  Dom.removeClass(el, 'l-class r-class');
  assert.strictEqual(el.className, 'bar', 'removes two classes via one string');
});

QUnit.test('hasClass()', function(assert) {
  const el = document.createElement('div');

  el.className = 'test-class foo foo test2_className FOO bar';

  assert.strictEqual(Dom.hasClass(el, 'test-class'), true, 'class detected');
  assert.strictEqual(Dom.hasClass(el, 'foo'), true, 'class detected');
  assert.strictEqual(Dom.hasClass(el, 'test2_className'), true, 'class detected');
  assert.strictEqual(Dom.hasClass(el, 'FOO'), true, 'class detected');
  assert.strictEqual(Dom.hasClass(el, 'bar'), true, 'class detected');
  assert.strictEqual(
    Dom.hasClass(el, 'test2'),
    false,
    'valid substring - but not a class - correctly not detected'
  );
  assert.strictEqual(
    Dom.hasClass(el, 'className'),
    false,
    'valid substring - but not a class - correctly not detected'
  );

  assert.throws(function() {
    Dom.hasClass(el, 'FOO bar');
  }, 'throws when attempting to detect a class with whitespace');
});

QUnit.test('toggleClass()', function(assert) {
  const el = Dom.createEl('div', {className: 'foo bar'});

  const predicateToggles = [
    {
      toggle: 'foo',
      predicate: true,
      className: 'foo bar',
      message: 'if predicate `true` matches state of the element, do nothing'
    },
    {
      toggle: 'baz',
      predicate: false,
      className: 'foo bar',
      message: 'if predicate `false` matches state of the element, do nothing'
    },
    {
      toggle: 'baz',
      predicate: true,
      className: 'foo bar baz',
      message: 'if predicate `true` differs from state of the element, add the class'
    },
    {
      toggle: 'foo',
      predicate: false,
      className: 'bar baz',
      message: 'if predicate `false` differs from state of the element, remove the class'
    },
    {
      toggle: 'bar',
      predicate: () => true,
      className: 'bar baz',
      message: 'if a predicate function returns `true`, ' +
               'matching the state of the element, do nothing'
    },
    {
      toggle: 'foo',
      predicate: () => false,
      className: 'bar baz',
      message: 'if a predicate function returns `false`, matching ' +
               'the state of the element, do nothing'
    },
    {
      toggle: 'foo',
      predicate: () => true,
      className: 'bar baz foo',
      message: 'if a predicate function returns `true`, ' +
               'differing from state of the element, add the class'
    },
    {
      toggle: 'foo',
      predicate: () => false,
      className: 'bar baz',
      message: 'if a predicate function returns `false`, differing ' +
               'from state of the element, remove the class'
    },
    {
      toggle: 'foo',
      predicate: Function.prototype,
      className: 'bar baz foo',
      message: 'if a predicate function returns `undefined` and ' +
               'the element does not have the class, add the class'
    },
    {
      toggle: 'bar',
      predicate: Function.prototype,
      className: 'baz foo',
      message: 'if a predicate function returns `undefined` and the ' +
               'element has the class, remove the class'
    },
    {
      toggle: 'bar',
      predicate: () => [],
      className: 'baz foo bar',
      message: 'if a predicate function returns a defined non-boolean ' +
               'value and the element does not have the class, add the class'
    },
    {
      toggle: 'baz',
      predicate: () => 'this is incorrect',
      className: 'foo bar',
      message: 'if a predicate function returns a defined non-boolean value ' +
               'and the element has the class, remove the class'
    }
  ];

  assert.expect(4 + predicateToggles.length);

  Dom.toggleClass(el, 'bar');
  assert.strictEqual(el.className, 'foo', 'toggles a class off, if present');

  Dom.toggleClass(el, 'bar');
  assert.strictEqual(el.className, 'foo bar', 'toggles a class on, if absent');

  Dom.toggleClass(el, 'bla ok');
  assert.strictEqual(el.className, 'foo bar bla ok', 'toggles a classes on, if absent');

  Dom.toggleClass(el, 'bla ok');
  assert.strictEqual(el.className, 'foo bar', 'toggles a classes off, if present');

  predicateToggles.forEach(x => {
    Dom.toggleClass(el, x.toggle, x.predicate);
    assert.strictEqual(el.className, x.className, x.message);
  });
});

QUnit.test('should set element attributes from object', function(assert) {
  const el = document.createElement('div');

  el.id = 'el1';
  Dom.setAttributes(el, {'controls': true, 'data-test': 'asdf'});

  assert.equal(el.getAttribute('id'), 'el1');
  assert.equal(el.getAttribute('controls'), '');
  assert.equal(el.getAttribute('data-test'), 'asdf');
});

QUnit.test('should read tag attributes from elements, including HTML5 in all browsers', function(assert) {
  // Creating the source/track tags outside of the video tag prevents log errors
  const tags = `
  <video id="vid1" controls autoplay loop muted preload="none" src="http://google.com" poster="http://www2.videojs.com/img/video-js-html5-video-player.png" data-test="asdf" data-empty-string="">
    <source id="source" src="http://google.com" type="video/mp4" media="fdsa" title="test" >
  </video>
  <track id="track" default src="http://google.com" kind="captions" srclang="en" label="testlabel" title="test" >
  `;

  const fixture = document.getElementById('qunit-fixture');

  // Have to use innerHTML to append for IE8. AppendChild doesn't work.
  // Also it must be added to the page body, not just in memory.
  fixture.innerHTML += tags;

  const vid1Vals = Dom.getAttributes(fixture.getElementsByTagName('video')[0]);
  const sourceVals = Dom.getAttributes(fixture.getElementsByTagName('source')[0]);
  const trackVals = Dom.getAttributes(fixture.getElementsByTagName('track')[0]);

  // vid1
  // was using deepEqual, but ie8 would send all properties as attributes
  assert.equal(vid1Vals.autoplay, true);
  assert.equal(vid1Vals.controls, true);
  assert.equal(vid1Vals['data-test'], 'asdf');
  assert.equal(vid1Vals['data-empty-string'], '');
  assert.equal(vid1Vals.id, 'vid1');
  assert.equal(vid1Vals.loop, true);
  assert.equal(vid1Vals.muted, true);
  assert.equal(vid1Vals.poster, 'http://www2.videojs.com/img/video-js-html5-video-player.png');
  assert.equal(vid1Vals.preload, 'none');
  assert.equal(vid1Vals.src, 'http://google.com');

  // sourceVals
  assert.equal(sourceVals.title, 'test');
  assert.equal(sourceVals.media, 'fdsa');
  assert.equal(sourceVals.type, 'video/mp4');
  assert.equal(sourceVals.src, 'http://google.com');
  assert.equal(sourceVals.id, 'source');

  // trackVals
  assert.equal(trackVals.default, true);
  assert.equal(trackVals.id, 'track');
  assert.equal(trackVals.kind, 'captions');
  assert.equal(trackVals.label, 'testlabel');
  assert.equal(trackVals.src, 'http://google.com');
  assert.equal(trackVals.srclang, 'en');
  assert.equal(trackVals.title, 'test');
});

QUnit.test('Dom.findPosition should find top and left position', function(assert) {
  const d = document.createElement('div');
  let position = Dom.findPosition(d);

  d.style.width = '100px';
  d.style.height = '50px';
  d.style.top = '10px';
  d.style.left = '20px';
  d.style.position = 'absolute';

  assert.deepEqual(
    position,
    {left: 0, top: 0, width: 0, height: 0},
    'If element isn\'t in the DOM, we should get zeros'
  );

  document.body.appendChild(d);
  position = Dom.findPosition(d);
  assert.deepEqual(position.left, 20, 'The position left was not correct');
  assert.deepEqual(position.top, 10, 'The position top was not correct');
  assert.deepEqual(position.width, 100, 'The dimension width was not correct');
  assert.deepEqual(position.height, 50, 'The dimension height was not correct');

  d.style.display = 'none';
  position = Dom.findPosition(d);
  assert.deepEqual(
    position,
    {left: 0, top: 0, width: 0, height: 0},
    'If there is no offsetParent, we should get zeros'
  );
});

QUnit.test('Dom.isEl', function(assert) {
  assert.expect(7);
  assert.notOk(Dom.isEl(), 'undefined is not an element');
  assert.notOk(Dom.isEl(true), 'booleans are not elements');
  assert.notOk(Dom.isEl({}), 'objects are not elements');
  assert.notOk(Dom.isEl([]), 'arrays are not elements');
  assert.notOk(Dom.isEl('<h1></h1>'), 'strings are not elements');
  assert.ok(Dom.isEl(document.createElement('div')), 'elements are elements');
  assert.ok(Dom.isEl({nodeType: 1}), 'duck typing is imperfect');
});

QUnit.test('Dom.isTextNode', function(assert) {
  assert.expect(7);
  assert.notOk(Dom.isTextNode(), 'undefined is not a text node');
  assert.notOk(Dom.isTextNode(true), 'booleans are not text nodes');
  assert.notOk(Dom.isTextNode({}), 'objects are not text nodes');
  assert.notOk(Dom.isTextNode([]), 'arrays are not text nodes');
  assert.notOk(Dom.isTextNode('hola mundo'), 'strings are not text nodes');
  assert.ok(
    Dom.isTextNode(document.createTextNode('hello, world!')),
    'text nodes are text nodes'
  );
  assert.ok(Dom.isTextNode({nodeType: 3}), 'duck typing is imperfect');
});

QUnit.test('Dom.emptyEl', function(assert) {
  const el = Dom.createEl();

  el.appendChild(Dom.createEl('span'));
  el.appendChild(Dom.createEl('span'));
  el.appendChild(document.createTextNode('hola mundo'));
  el.appendChild(Dom.createEl('span'));

  Dom.emptyEl(el);

  assert.expect(1);
  assert.notOk(el.firstChild, 'the element was emptied');
});

QUnit.test('Dom.normalizeContent: strings and elements/nodes', function(assert) {
  assert.expect(8);

  const str = Dom.normalizeContent('hello');

  assert.strictEqual(str[0].data, 'hello', 'single string becomes a text node');

  const elem = Dom.normalizeContent(Dom.createEl());

  assert.ok(Dom.isEl(elem[0]), 'an element is passed through');

  const node = Dom.normalizeContent(document.createTextNode('goodbye'));

  assert.strictEqual(node[0].data, 'goodbye', 'a text node is passed through');

  assert.strictEqual(Dom.normalizeContent(null).length, 0, 'falsy values are ignored');
  assert.strictEqual(Dom.normalizeContent(false).length, 0, 'falsy values are ignored');
  assert.strictEqual(Dom.normalizeContent().length, 0, 'falsy values are ignored');
  assert.strictEqual(Dom.normalizeContent(123).length, 0, 'numbers are ignored');
  assert.strictEqual(Dom.normalizeContent({}).length, 0, 'objects are ignored');
});

QUnit.test('Dom.normalizeContent: functions returning strings and elements/nodes', function(assert) {
  assert.expect(9);

  const str = Dom.normalizeContent(() => 'hello');

  assert.strictEqual(
    str[0].data,
    'hello',
    'a function can return a string, which becomes a text node'
  );

  const elem = Dom.normalizeContent(() => Dom.createEl());

  assert.ok(Dom.isEl(elem[0]), 'a function can return an element');

  const node = Dom.normalizeContent(() => document.createTextNode('goodbye'));

  assert.strictEqual(node[0].data, 'goodbye', 'a function can return a text node');

  assert.strictEqual(
    Dom.normalizeContent(() => null).length,
    0,
    'a function CANNOT return falsy values'
  );
  assert.strictEqual(
    Dom.normalizeContent(() => false).length,
    0,
    'a function CANNOT return falsy values'
  );
  assert.strictEqual(
    Dom.normalizeContent(() => undefined).length,
    0,
    'a function CANNOT return falsy values'
  );
  assert.strictEqual(
    Dom.normalizeContent(() => 123).length,
    0,
    'a function CANNOT return numbers'
  );
  assert.strictEqual(
    Dom.normalizeContent(() => {}).length,
    0,
    'a function CANNOT return objects'
  );
  assert.strictEqual(
    Dom.normalizeContent(() => (() => null)).length,
    0,
    'a function CANNOT return a function'
  );
});

QUnit.test('Dom.normalizeContent: arrays of strings and objects', function(assert) {
  assert.expect(7);

  const source = [
    'hello',
    {},
    Dom.createEl(),
    ['oops'],
    null,
    document.createTextNode('goodbye'),
    () => 'it works'
  ];
  const result = Dom.normalizeContent(source);

  assert.strictEqual(
    result[0].data,
    'hello',
    'an array can include a string normalized to a text node'
  );
  assert.ok(Dom.isEl(result[1]), 'an array can include an element');
  assert.strictEqual(result[2].data, 'goodbye', 'an array can include a text node');
  assert.strictEqual(
    result[3].data,
    'it works',
    'an array can include a function, which is invoked'
  );
  assert.strictEqual(result.indexOf(source[1]), -1, 'an array CANNOT include an object');
  assert.strictEqual(result.indexOf(source[3]), -1, 'an array CANNOT include an array');
  assert.strictEqual(
    result.indexOf(source[4]),
    -1,
    'an array CANNOT include falsy values'
  );
});

QUnit.test('Dom.normalizeContent: functions returning arrays', function(assert) {
  assert.expect(3);

  const arr = [];
  const result = Dom.normalizeContent(() => ['hello', Function.prototype, arr]);

  assert.strictEqual(result[0].data, 'hello', 'a function can return an array');
  assert.strictEqual(
    result.indexOf(Function.prototype),
    -1,
    'a function can return an array, but it CANNOT include a function'
  );
  assert.strictEqual(
    result.indexOf(arr),
    -1,
    'a function can return an array, but it CANNOT include an array'
  );
});

QUnit.test('Dom.insertContent', function(assert) {
  const p = Dom.createEl('p');
  const text = document.createTextNode('hello');
  const el = Dom.insertContent(Dom.createEl(), [p, text]);

  assert.expect(2);
  assert.strictEqual(el.firstChild, p, 'the paragraph was inserted first');
  assert.strictEqual(el.firstChild.nextSibling, text, 'the text node was inserted last');
});

QUnit.test('Dom.appendContent', function(assert) {
  const p1 = Dom.createEl('p');
  const p2 = Dom.createEl('p');
  const el = Dom.insertContent(Dom.createEl(), [p1]);

  Dom.appendContent(el, p2);

  assert.expect(2);
  assert.strictEqual(el.firstChild, p1, 'the first paragraph is the first child');
  assert.strictEqual(el.firstChild.nextSibling, p2, 'the second paragraph was appended');
});

QUnit.test('$() and $$()', function(assert) {
  const fixture = document.getElementById('qunit-fixture');
  const container = document.createElement('div');
  const children = [
    document.createElement('div'),
    document.createElement('div'),
    document.createElement('div')
  ];

  children.forEach(child => container.appendChild(child));
  fixture.appendChild(container);

  const totalDivCount = document.getElementsByTagName('div').length;

  assert.expect(12);

  assert.strictEqual(
    Dom.$('#qunit-fixture'),
    fixture,
    'can find an element in the document context'
  );
  assert.strictEqual(
    Dom.$$('div').length,
    totalDivCount,
    'finds elements in the document context'
  );

  assert.strictEqual(
    Dom.$('div', container),
    children[0],
    'can find an element in a DOM element context'
  );
  assert.strictEqual(
    Dom.$$('div', container).length,
    children.length,
    'finds elements in a DOM element context'
  );

  assert.strictEqual(
    Dom.$('#qunit-fixture', document.querySelector('unknown')),
    fixture,
    'falls back to document given a bad context element'
  );
  assert.strictEqual(
    Dom.$$('div', document.querySelector('unknown')).length,
    totalDivCount,
    'falls back to document given a bad context element'
  );

  assert.strictEqual(
    Dom.$('#qunit-fixture', 'body'),
    fixture,
    'can find an element in a selector context'
  );
  assert.strictEqual(
    Dom.$$('div', '#qunit-fixture').length,
    1 + children.length,
    'finds elements in a selector context'
  );

  assert.strictEqual(
    Dom.$('#qunit-fixture', 'unknown'),
    fixture,
    'falls back to document given a bad context selector'
  );
  assert.strictEqual(
    Dom.$$('div', 'unknown').length,
    totalDivCount,
    'falls back to document given a bad context selector'
  );

  assert.strictEqual(Dom.$('div', children[0]), null, 'returns null for missing elements');
  assert.strictEqual(
    Dom.$$('div', children[0]).length,
    0,
    'returns 0 for missing elements'
  );
});

QUnit.test('getBoundingClientRect() returns an object for elements that support it', function(assert) {
  const mockEl = {
    getBoundingClientRect: sinon.spy(() => {
      return {
        bottom: 3,
        height: 10,
        left: 4,
        right: 2,
        top: 1,
        width: 20
      };
    }),
    parentNode: true
  };

  const actual = Dom.getBoundingClientRect(mockEl);

  // The expected result is what is returned by the mock element.
  const expected = mockEl.getBoundingClientRect.firstCall.returnValue;

  assert.notStrictEqual(actual, expected, 'the object returned by the mock element was cloned and not returned directly');

  Object.keys(expected).forEach(k => {
    assert.strictEqual(actual[k], expected[k], `the "${k}" returned by the Dom util matches what was returned by the mock element`);
  });
});

QUnit.test('isSingleLeftClick() returns false for mousemove event', function(assert) {
  const mouseEvent = TestHelpers.createEvent('mousemove');

  mouseEvent.button = 0;
  mouseEvent.buttons = 0;

  assert.notOk(Dom.isSingleLeftClick(mouseEvent), 'a mousemove event is not a single left click');
});

QUnit.test('isSingleLeftClick() returns true for mouseup event', function(assert) {
  const mouseEvent = TestHelpers.createEvent('mouseup');

  mouseEvent.button = 0;
  mouseEvent.buttons = 0;

  assert.ok(Dom.isSingleLeftClick(mouseEvent), 'a mouseup event is a single left click');
});

QUnit.test('isSingleLeftClick() checks return values for mousedown event', function(assert) {
  const mouseEvent = TestHelpers.createEvent('mousedown');

  // Left mouse click
  mouseEvent.button = 0;
  mouseEvent.buttons = 1;

  assert.ok(Dom.isSingleLeftClick(mouseEvent), 'a left mouse click on browsers that supporting buttons property is a single left click');

  // Right mouse click
  mouseEvent.button = 2;
  mouseEvent.buttons = 2;

  assert.notOk(Dom.isSingleLeftClick(mouseEvent), 'a right mouse click is not a single left click');

  // Touch event on some mobiles
  mouseEvent.button = 0;
  mouseEvent.buttons = undefined;

  assert.ok(Dom.isSingleLeftClick(mouseEvent), 'a touch event on mobiles is a single left click');

  // Chrome simulates mobile devices
  mouseEvent.button = undefined;
  mouseEvent.buttons = undefined;

  assert.ok(Dom.isSingleLeftClick(mouseEvent), 'a touch event on simulated mobiles is a single left click');

  // MacOS trackpad "tap to click". Sonoma always does this, previous MacOS did this inconsistently, buttons was usally 1.
  mouseEvent.button = 0;
  mouseEvent.buttons = 0;

  assert.ok(Dom.isSingleLeftClick(mouseEvent), 'a tap-to-click on Mac trackpad is a single left click');
});

QUnit.test('dom.getPointerPosition should return position with translated', function(assert) {
  const wrapper = document.createElement('div');

  const width = '100px';
  const height = '50px';

  wrapper.style.width = width;
  wrapper.style.height = height;
  wrapper.style.position = 'absolute';
  wrapper.style.top = '0';
  wrapper.style.left = '0';

  let position;

  document.body.appendChild(wrapper);
  const event = {
    offsetX: 20,
    offsetY: 0,
    target: wrapper
  };

  position = Dom.getPointerPosition(wrapper, event);

  // Default click on element without any transform
  assert.deepEqual(position, { x: 0.2, y: 1 });

  const origIOS = browser.IS_IOS;

  wrapper.style.transform = 'translate(5px)';

  const transformedTouch = {
    offsetX: 20,
    offsetY: 0,
    target: wrapper,
    changedTouches: [
      {
        pageX: 20,
        pageY: 0
      }
    ]
  };

  // Ignore translate x/y when not in IOS
  position = Dom.getPointerPosition(wrapper, transformedTouch);
  assert.deepEqual(position, { x: 0.2, y: 1 });

  // Add calculate with IOS to true
  browser.stub_IS_IOS(true);
  position = Dom.getPointerPosition(wrapper, transformedTouch);
  assert.deepEqual(position, { x: 0.15, y: 1 });

  // Create complex template where position of each video is controlled by
  // a web component with transform
  wrapper.style.transform = '';
  const progressStyle = `position: absolute; height: ${height}; width: ${width};`;

  wrapper.innerHTML = `
    <test-slot-element id="slides" style="position: absolute" data-style="position: relative; transform: translate(5px);">
      <div class="video-01">
        <div class="progress-01" style="${progressStyle}"></div>
      </div>
      <div class="video-02">
        <div class="progress-02" style="${progressStyle}"></div>
      </div>
    </test-slot-element>
  `;
  document.body.appendChild(wrapper);

  const slottedProgressBar = wrapper.querySelector('div.progress-02');

  // Handle slot elements pointer position
  transformedTouch.target = slottedProgressBar;
  position = Dom.getPointerPosition(slottedProgressBar, transformedTouch);
  assert.deepEqual(position, { x: 0.15, y: 1 });

  // Non IOS slot element pointer position
  browser.stub_IS_IOS(false);
  position = Dom.getPointerPosition(slottedProgressBar, transformedTouch);
  assert.deepEqual(position, { x: 0.20, y: 1 });

  browser.stub_IS_IOS(origIOS);
});

QUnit.test('Dom.copyStyleSheetsToWindow() copies all style sheets to a window', function(assert) {
  /**
   * This test is checking that styles are copied by comparing strings in original stylesheets to those in
   * documents.styleSheets in the new (fake) window. This can be problematic on older Safari as documents.styleSheets
   * does not always return the original style - a shorthand property like `background: white` may be returned as
   * `background-color: white`.
   */

  const fakeWindow = document.createElement('div');
  const done = assert.async();

  assert.expect(7);

  fakeWindow.document = {
    head: document.createElement('div')
  };

  const style1 = document.createElement('style');

  style1.textContent = 'body { background-color: white; }';
  document.head.appendChild(style1);

  const style2 = document.createElement('style');

  style2.textContent = 'body { margin: 0px; }';
  document.head.appendChild(style2);

  const link = document.createElement('link');

  link.rel = 'stylesheet';
  link.type = 'text/css';
  link.media = 'print';
  link.href = 'http://asdf.com/styles.css';

  const containsRulesFromStyle = (el) => {
    return Boolean([...fakeWindow.document.head.querySelectorAll('style')].find(s => {
      return s.textContent.includes(el.textContent);
    }));
  };

  link.onload = link.onerror = () => {
    Dom.copyStyleSheetsToWindow(fakeWindow);
    assert.strictEqual(fakeWindow.document.head.querySelectorAll('style, link').length, document.styleSheets.length, 'the fake window has as many <style> or <link> elements as document.styleSheets');
    assert.true(containsRulesFromStyle(style1), 'a <style> in the fake window contains content from first <style> element');
    assert.true(containsRulesFromStyle(style2), 'a <style> in the fake window contains content from second <style> element');
    assert.strictEqual(fakeWindow.document.head.querySelectorAll('link[rel=stylesheet]').length, 1, 'the fake window has one <link> stylesheet element');
    const fakeWindowLink = fakeWindow.document.head.querySelectorAll('link[rel=stylesheet]')[0];

    assert.strictEqual(fakeWindowLink.type, link.type, 'the <style> type attribute in the fake window is the one from <link> element');
    assert.strictEqual(fakeWindowLink.href, link.href, 'the <style> href attribute in the fake window is the one from <link> element');
    assert.strictEqual(fakeWindowLink.media, link.media, 'the <style> media attribute in the fake window is the one from <link> element');
    done();
  };
  document.head.appendChild(link);
});
